Our Products
CYTOOplates
High-throughput screening
What is a CYTOOplate?
CYTOOplates are designed for High-Content Screening (HCS) and are fully compatible with standard HCS imaging platforms and lab automation instruments. These standard plates contain micropatterns precisely positioned at the bottom of each well.
They are available in:
96-well plates: Suitable for moderate-throughput experiments.
384-well plates: Ideal for large-scale screening applications (availability depends on the selected micropattern family).
Our CYTOOplates collection
Starter
Explore five different micropatterns in two sizes on a single plate to determine the optimal pattern and size for your cell line.
Standard
Same patterns available as Starter, but with a single identical micropattern shape and size across the entire plate for consistency.
Arena
Designed for spatially confined cell applications, offering various circle sizes.
Custom
Design your own micropattern* or choose a different shape from our extensive database of patterns.
*Custom designs require a one-time mask creation fee. You can opt for exclusive ownership of the mask at an additional cost.
Choose your coating
Our products come with different coating options to suit various applications:
- Activated: Ready to be coated with the protein of your choice.
- Fibronectin: Coated with fibronectin for reliable cell adhesion.
- Fibronectin 650: Fluorescently labeled version, facilitating cell imaging.
Storage and stability
Essential information to maintain product quality and performance.
Packaging
CYTOOplates are supplied with clear polystyrene lids and are packaged individually under inert gas. Sold in lots of 5 plates.
Storage
Keep at 4°C and use before the 6-month expiry date indicated on the packaging.
Stability
Guaranteed for at least 3 months from shipment when stored properly.
Our publications
Discover how scientists are using CYTOOplates in real-world research.
An automated high-content screening and assay platform for the analysis of spheroids at subcellular resolution
Cellular geometry and epithelial-mesenchymal plasticity intersect with PIEZO1 in breast cancer cells
Development of a Probability-Based In Vitro Eye Irritation Screening Platform